MOSFet Learning Materials

by Saumitra Raj Mehrotra, , ,

Version 7
by (unknown)
Version 11
by (unknown)

Deletions or items before changed

Additions or items after changed

1 [[Image(mosfet.jpg, 500px)]]
2
3 -
By completing the MOSFET Lab in [[Resource(5065)]], you will be able to:
+
By completing the MOSFET Lab in [[Resource(5065)]], users will be able to understand a) the operation of MOSFET devices, b) the limitations of the gradual channel approximation, and c) the limitations of the drift-diffusion model.
4 -
+
5 -
a) understand the operation of MOSFET devices,
+
6 -
+
7 -
b) understand the limitations of the gradual channel approximation, and
+
8 -
+
9 -
c) understand the limitations of the drift-diffusion model.
+
10
11
12 The specific objectives of the MOSFET Lab are:
13
14 [[Image(mosfet_viewer.jpg, 400px)]]
15
16
17
18 == Recommended Reading ==
19
20 -
For better understanding of the operation and modeling of MOSFET devices, the following texts are highly recommended:
+
Users who are new to the operation and modeling of MOSFET devices should consult the following resources:
21
22 -
1. Michael Shur, Physics of Semiconductor Device (Prentice Hall).
+
1. Michael Shur. (1990). ''Physics of Semiconductor Devices''. Englewood Cliffs, NJ: Prentice Hall.
23
24 -
2. Simon M. Sze and Kwok K. Ng, Physics of Semiconductor Devices (Wiley, 2006).
+
2. Simon M. Sze and Kwok K. Ng. (2007). ''Physics of Semiconductor Devices''. 3rd ed. Hoboken, NJ: Wiley.
25
26 -
3. Dragica Vasileska, Stephen M. Goodnick and G. Klimeck, Computational Electronics: Semiclassical and Quantum Device Modeling and Simulation, Chapter 2 (CRC Press, 2010).
+
3. Dragica Vasileska, Stephen M. Goodnick and G. Klimeck. (2010). ''Computational Electronics: Semiclassical and Quantum Device Modeling and Simulation''. Boca Raton, LA: CRC Press.
27
28
29
30 == Demo ==
31
32 [[Resource(6900)]]
33
34 [[Resource(6830)]]
35
36
37
38
39 -
== Theoretical descriptions ==
+
== Theoretical Descriptions ==
40 +
41 +
* [[Resource(7224)]] (tutorial)
42
43 * [[Resource(5309)]]
44
45 * [[Resource(5310)]]
46
47 * [[Resource(5085)]]
48
49 * [[Resource(5306)]]
50
51
52
53 == Tool Verification ==
54
55 [[Resource(9841)]]
56
57
58 -
== Worked Examples ==
+
== Examples ==
59
60 [[Resource(10128)]]
61
62 == Exercises and Homework Assignments ==
63
64 1. [[Resource(5191)]]
65
66 2. [[Resource(4906)]]
67
68 3. [[Resource(7190)]]
69
70 4. [[Resource(7188)]]
71
72 5. [[Resource(3948)]]
73
74 6. [[Resource(9221)]]
75 -
76 -
77
78
79 == Solutions to Exercises ==
80
81 Work in progress!
82
83 +
== Evaluation ==
84
85 -
+
This test will assess users' conceptual understanding of the physical, mathematical and computational knowledge related to operation of MOSFET devices.
86 -
== Take a Test ==
+
87 -
+
88 -
This test will assess your conceptual understanding of the physical, mathematical and computational knowledge related to operation of MOSFET devices.
+
89
90 [[Resource(9882)]]
91
92 +
== Challenge ==
93
94 -
== Solve the Challenge ==
+
In this final challenge users will integrate what they have learned about the operation of MOSFET devices.
95
96 -
In this final challenge you will integrate all you have learned about operation of MOSFET devices.
+
[[Resource(10268)]]